By absorbing carbon dioxide from the atmosphere, and from the human use of fossil fuels, the world's seas function as a giant buffer for the Earth's life support system. The chemical balance of the sea has long been regarded as immovable.

Today, researchers know that the pH of the sea's surface water has gone down by 0.1, or 25 percent, just since the beginning of industrialisation just over a century ago. Jon Havenhand and Michael Thorndyke, researchers at the University of Gothenburg, along with colleagues in Australia, have studied how this acidification process affects marine animal life.

As part of the study, which is one of the world's first on this subject, they have allowed sea urchins of the species Heliocidaris erythrogramma to fertilise themselves in water where the pH has been lowered from its normal 8.1 to a pH value of 7.7. This means an environment three times as acidic, and corresponds to the change expected by the year 2100. The results are alarming.

Like most invertebrates, the sea urchin multiplies by releasing its eggs to be fertilised in the open water. However, in a more acidic marine environment, the sea urchin's ability to multiply goes down by 25 percent, as its sperm swim more slowly and move less effectively. If fertilisation is successful, their larval development is disturbed to the extent where only 75 percent of the eggs develop into healthy larvae.

"A 25 percent drop in fertility is the equivalent of a 25 percent drop in the reproductive population. It remains to be seen whether other species exhibit the same effect, but, translated to commercially and ecologically important species such as lobsters, crabs, mussels and fish, acidification would have far reaching consequences," says Jon Havenhand, a researcher from the Department of Marine Ecology working at the Sven Lovén Centre for Marine Sciences in Tjärnö.

The sea urchin studied by Jon Havenhand and Michael Thorndyke lives off the south coast of Australia. From a research point of view, the species is highly interesting, as its shell is made out of limestone, which is broken down in more acidic environments.

"Species with limestone skeletons or shells are hit particularly hard when the pH drops, through a drop in ability to grow and a rise in mortality. But, and it's a big but, we don't yet know enough about the effects of acidification in the sea, and I hope I'm wrong about the wider consequences of our results," says John Havenhand, who says that the need for more research on a global level is acute.

Research on the effects of acidification is being carried out with the support of the Swedish Research Council, FORMAS and the Australian Research Council. The article Near future levels of ocean acidification reduce fertilization success in a sea urchin is being published in the scientific periodical Current Biology.

Reader Comments

Given the time, i'd postulate a different result. Can you take a healthy sea urchin that is used to its current environment and plop it into an environment 3 times acidic, with no way to develop there and not expect a crisis?

This is not giving the sea urchin the chance to develop getting used to a growing acidic environment over the next 92 years, it's tossing it in from one extreme to another and making measurements based on a creature who has not evolved and adapted to that environment.

I'm no scientist but this doesn't seem as scientific as perhaps it could be.